|Publication number||US6906699 B1|
|Application number||US 09/673,704|
|Publication date||Jun 14, 2005|
|Filing date||Oct 19, 2000|
|Priority date||Apr 30, 1998|
|Publication number||09673704, 673704, US 6906699 B1, US 6906699B1, US-B1-6906699, US6906699 B1, US6906699B1|
|Inventors||Christer Fåhraeus, Ola Hugosson, Petter Ericson|
|Original Assignee||C Technologies Ab|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (23), Non-Patent Citations (3), Referenced by (27), Classifications (20), Legal Events (5)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This application claims the benefit of U.S. Provisional Application No. 60/091,323, filed Jun. 30, 1998; U.S. Provisional Application No. 60/105,780, filed Oct. 27, 1998; and PCT Application No. PCT/SE99/00718, filed Apr. 30, 1999, which designates the United States.
The present invention relates to an input unit having a mouse function and at least one inputting function, which input unit comprises image-recording means for providing the inputting function. The invention also relates to a method for providing a mouse function and at least one inputting function with the aid of an input unit, as well as an input system having a mouse function and at least one inputting function.
Today, personal computers are usually equipped with a computer mouse, which is used for positioning a cursor on the computer screen. The positioning is carried out by the user passing the mouse over a surface, the hand movement thus indicating how the mouse should be positioned. The mouse generates positioning signals indicating how the mouse is being moved and thus how the cursor should be moved. For this purpose, the mouse usually has a track ball, which turns as a result of friction against the surface when the mouse is passed over the same and which in this connection drives position sensors which in turn generate the positioning signals. Normally, the mouse can also be used for providing instructions to the computer by the intermediary of one or more buttons on which the user clicks. However, when the term “mouse function” is used below it only refers to the function of positioning a cursor or the like.
To input text and images into a computer a hand-held scanner is sometimes used, which images the text or image which is to be input with the aid of a light-sensitive sensor. The scanner can only image a very limited text/image area at one time. Consequently, in order to record one or several words or a whole image, the scanner must be passed over the text/image and several sub-images must be recorded. Usually, the scanner has some kind of position sensor which determines how these sub-images should be stored in the computer to enable the creation of a composite image therefrom.
It is known to combine a mouse function and an inputting function in a casing which is connected with a single flex to a computer.
U.S. Pat. No. 4,906,843, for example, shows a combined mouse, optical scanner, and digitising pad. In the mouse mode, a track ball is used, which drives two position sensors, which generate the positioning signals. In the scanner mode, a CCD line sensor as well as the position sensors are used for inputting characters or graphical information to the computer.
U.S. Pat. No. 5,355,146 shows a similar input unit with a combined mouse function and scanner function, which also utilises a track ball and a CCD line sensor.
EP 0 782 321 shows yet another input unit having a mouse function and scanner function. In this case, too, a track ball is used for the mouse function but instead of the line sensor, use is made of an area sensor which is capable of imaging a document in a single step and which thus need not be moved across the document. This is said to have the advantage that no software is required for correlating image data with position data.
U.S. Pat. No. 5,633,489 shows a combined mouse and barcode reader, where the mouse function is provided by means of a track ball and the barcode reader comprises a laser diode which generates a laser beam emitted from the underside of the mouse and a photo detector which detects the varying intensity of the reflected light.
All these known input units have a rather complicated mechanical design with moving parts and many sensors. Moreover, they only provide limited synergies between the functions combined in one and the same casing.
It is thus an object of the present invention to provide an input unit having a mouse function and at least one inputting function as well as a method for providing the mouse function and the inputting function with the aid of the input unit, which input unit and which method reduce the above-mentioned deficiencies.
This object is achieved by an input unit according to claim 1, a method according to claim 19, and an input system according to claim 24. Preferred embodiments are stated in claims 2-18 and claims 20-23 respectively.
An input unit according to the invention thus comprises image-recording means for providing said inputting function, with the image-recording means also being used to provide the mouse function.
Instead of using the image-recording means or only one of these functions, according to the present invention they are used to provide both the mouse function and the inputting function, whereby improved integration of these functions is achieved. Furthermore, the track ball can be omitted and both functions can be based on the same sensor technology so that the signals for both functions can be handled by the same hardware and/or software. Thereby, real integration of the two functions is obtained rather than the two simply being brought together in the same casing as in the prior art. In addition, it becomes possible to provide an input unit without moving parts, which is advantageous from the point of view of durability and manufacturing. As will be evident below, it is also possible to provide an input unit which requires neither special position-determination means nor additional aids in the form of a raster or the like.
In this context, it should be noted that in this patent specification the term inputting function refers to a function whereby the user can input information to a receiver for storing and processing in the same, unlike the mouse function which is used for positioning purposes.
Furthermore, it should be noted that the mouse function can be used for positioning a cursor or the like in a plane or in space.
More specifically, the input unit is advantageously adapted to emit positioning signals for providing the mouse function, as well as inputting signals for providing said inputting function, the positioning signals as well as the inputting signals being based on images recorded by means of the image-recording means. The positioning signals can be used for controlling a cursor on a computer screen, while the inputting signals can contain information which is to be input to the computer.
The positioning signals and the inputting signals can be emitted as electrical signals on leads, as IR signals, as radio signals, or in some other suitable way. Naturally, the input unit can also emit signals other than the positioning signals and the inputting signals, e.g. instruction signals based on clickings. The receiver of the signals can be a computer or some other input unit to which positioning information and/or other information is to be input. The input unit is especially suitable for use with small portable computers where it is desirable to have few, but versatile, accessories.
The image-recording means may comprise a first image-recording unit for providing the mouse function and a second image-recording unit for providing the inputting function. This may be particularly advantageous if different image-recording characteristics are desired for the two functions, e.g. if different foci are desired for the image-recording. For example, when using the mouse function one may wish to be able to move the input unit across a surface in the same way as one would move a traditional mouse, and when using the inputting function one may wish to be able to use the input unit as a camera for imaging objects located at a distance from the unit. In this case, the different image-recording units can be provided with different lens means with different foci. The image-recording units can, for example, be located on different sides of the input unit, but have shared hardware and software.
Alternatively, the image-recording means may comprise an image-recording unit which is used for providing both the mouse function and the inputting function. This embodiment is advantageous because it requires fewer components in the input unit and only one beam path.
The image-recording units may comprise any type of sensor which can be used for recording an image but should preferably be a light-sensitive sensor with a two-dimensional sensor surface, a so-called area sensor.
In a less complex embodiment of the input unit, both the positioning signals and the inputting signals may essentially consist of the actual images recorded by the image-recording means. In this case, essentially all processing of the images takes place in the receiver of the signals, e.g. in a computer. If so, the latter must have software for processing the signals in a suitable manner. Such software may already be stored in the computer or may, for example, be included in the input unit according to the invention and be transferred to the receiver when the input unit is in use.
The receiver of the signals from the input unit must be capable of determining whether the signals are intended as positioning signals or as inputting signals so that it will know how to process the signals. For this purpose, the input unit is adapted to output the positioning signals and the inputting signals in such a way that the receiver can identify whether it is receiving positioning signals or inputting signals. For example, the input unit may use different protocols for the different signals.
Suitably, the input unit should also know whether the user wishes to use the mouse function or the inputting function so that it will know how the images recorded by the image recorder should be processed. For this purpose, the input unit preferably comprises switching means, e.g. a button, which are adapted to switch the input unit between its different functions when acted upon by the user.
Preferably, at least for the mouse function, the image-recording means are adapted to record a plurality of images in such a way that the contents of each image overlap the contents of the previous image, if any. This can be achieved by recording the images with sufficiently high frequency in relation to the expected speed of movement. By virtue of the fact that the images overlap, their relative positions are determined and there is no need to use special position-determination means.
Once the images have been recorded the subsequent processing can take place either in image-processing means in the input unit or in the receiver of the signals from the input unit. The advantages of processing at least the inputting signals in the input unit are that, in this way, the input unit can be used as a stand-alone unit without being connected to an adjacent receiver, that information which has been input can be shown directly on a display on the input unit so that the user can check that the information recorded really is the information he intended to record, and that the information can be transferred in a more compressed format to the receiver. Furthermore, the input unit can be connected to any receiver that supports a mouse with no special software being required in the receiver for processing the images.
Thus, the input unit advantageously comprises image-processing means used for both the mouse function and the inputting function. These image-processing means may comprise a processing unit operating according to different program modules depending upon which function of the input unit is being used.
Moreover, for processing the images in the input unit, the input unit advantageously comprises means for determining the relative position of the images with the aid of the partially overlapping contents. The means for determining the relative position of the images may be included in the shared image-processing means and be implemented by means of software.
If the mouse function is used for linear positioning only, it is sufficient to determine the relative position of the images horizontally. However, if it is to be used for two-dimensional positioning, the relative position must be determined both horizontally and vertically.
In an advantageous embodiment, the input unit comprises means for generating the positioning signals on the basis of the relative position of the images. The positioning signals can, for example, be composed of one or more vectors indicating how the input unit has been moved between the recording of two images, or of one or more positioning coordinates. The means for generating the positioning signals can also be included in the shared image-processing means and be implemented by means of software.
The input unit is advantageously hand-held so that it can be carried everywhere. This technology thus enables the user to have a personal mouse and input unit with stored personal settings and personal information.
In a particularly advantageous embodiment, the input unit also comprises a transmitter for wireless connection of the input unit to a receiver, which further facilitates the use of the input unit. The Bluetooth standard can advantageously be used for this purpose.
Advantageously, the inputting function comprises a scanner function so that the input unit can be used for recording text and/or images.
The inputting function can also comprise a camera function, wherein the image-recording means are utilised for imaging objects located at a distance from the input unit.
The inputting function can also comprise a function for inputting handwritten/drawn, i.e. hand-generated information. Each of the scanner function, the camera function, and the handwriting/drawing function can be the only inputting function or one of several inputting functions.
The input unit can thus have a plurality of functions, all of which are based on images which are recorded by the image-recording means and which are processed efficiently by means of shared hardware and software.
According to a second aspect to the invention, it relates to a method for providing a mouse function and at least one inputting function with the aid of an input unit, comprising the steps of detecting which of said functions is desired; recording at least one image with the aid of the input unit; and processing said at least one image in different ways depending upon which of said functions is desired.
The advantages of the method according to the invention are evident from the above description of the input unit according to the invention.
According to a third aspect of the invention, it relates to an input system having a mouse function and at least one inputting function, comprising image-recording means for recording images and image-processing means for processing the images recorded by the image-recording means for providing the mouse function and said at least one inputting function, the image-recording means being located in a first casing and the image-processing means being located in a second casing.
Accordingly, the input system comprises the case where the image-recording means are located in an input unit and the image-processing means are located in a computer or other receiver to which the input unit is connected and to which it transmits recorded images. Everything that has been stated above with respect to the image-recording means and the processing of the images recorded by the image-recording means also applies to the input system.
The present invention will now be described in more detail by way of an embodiment with reference to the accompanying drawings, in which
The following is a description of an embodiment of an input unit according to the invention having a mouse function, a scanner function, a camera function, as well as a function for inputting handwritten/drawn information.
Design of the Unit
The casing 1 essentially contains an optics part 3, an electronic circuitry part 4, and a power supply 5.
The optics part 3 comprises a light-emitting diode 6, a lens system 7, and an image-recording means in the form of a light-sensitive sensor 8, which constitutes the interface with the electronic circuitry part 4.
The task of the LED 6 is to illuminate a surface which is currently located under the window. A diffuser 9 is mounted in front of the LED 6 for diffusing the light.
The lens system 7 has the task of projecting an image of the surface located under the window 2 on the light-sensitive sensor 8 as accurately as possible. The lens system is displaceable between two positions, the second of which is indicated by dashed lines. The first position is used when images are to be recorded of a surface located directly below the window of the input unit and is primarily intended for the mouse function, the scanner function, and the handwriting/drawing function. The second position is used when images are to be recorded of objects located at a distance from the input unit and is primarily intended for the camera function, but can also be used for the other functions.
In this example, the light-sensitive sensor 8 comprises a two-dimensional, square CCD unit (CCD=charge coupled device) with a built-in A/D converter. Such sensors are commercially available. The sensor 8 is mounted at a small angle to the window 2 and on its own circuit board 11.
The power supply to the input unit is obtained from a battery 12 which is mounted in a separate compartment 13 in the casing.
The block diagram in
The control logic unit 24 is in turn connected to a number of peripheral units, comprising a display 25, which is mounted in the casing, a radio transceiver 26 for transferring information to/from an external computer, buttons 27, by means of which the user can control the input unit and specifically adjust the input unit between the mouse function, the scanner function, the camera function, and the handwriting/drawing function, buttons 27′ corresponding to the clicking buttons on a traditional mouse, a tracer LED 28 which emits a light beam, making it easier for the user to know which information he is inputting, as well as an indicator 29, e.g. an LED, indicating when the pen is ready to be used. Control signals to the memories, the sensor 8, and the peripheral units are generated in the control logic unit 24. The control logic also handles generation and prioritisation of interrupts to the processor. The buttons 27 and 27′, the radio transceiver 26, the display 25, the tracer LED 28, and the LED 6 are accessed by the processor writing and reading in a register in the control logic unit 24. The buttons 27 and 27′ generate interrupts to the processor 20 when they are activated.
Operation of the Unit
The various functions of the input unit, viz. the mouse function, the scanner function, the handwriting/drawing function, and the camera function, will now be described. All of these functions are based on images which are recorded with the aid of the sensor 8. When the first three functions are used, a plurality of images are recorded in such a way that the contents of each image partially overlap the contents of the previous image, if any. As the images are being recorded, the relative position of the images is determined, i.e. the position which affords the best possible correspondence between their contents. Subsequently, the processing is carried out depending upon the function selected by the user. When recording the images, the input unit can be passed over a surface with the window 2 in contact with the same, or be held at a small or at a larger distance from the surface depending upon the setting of the lens system. The surface need not be plane. For example, it could be a sheet of paper with text on it, a wall covered with patterned wallpaper, or a bowl of sweets. What is important is that images with varying contents can be recorded so that the relative positions of the images can be determined with the aid of the contents of the images.
The Mouse Function
First, suppose that the user wishes to use the input unit as a mouse. In this case, he sets the unit to the mouse function with the aid of the buttons 27, whereupon the input unit starts operating in the mouse mode, and logs into the computer for which the input unit is to operate as a mouse. Subsequently, the user directs the window 2 of the input unit at a patterned surface, e.g. a mouse pad. He presses one of the buttons 27 to activate the input unit, whereupon the processor 20 commands the LED 6 to begin generating strobe pulses at a predetermined frequency, suitably at least 50 Hz. Subsequently, the user passes the input unit over the surface in the same way as if it were a traditional mouse, whereupon images with partially overlapping contents are recorded by the sensor 8 and are stored in the read/write memory 23. The images are stored as images, i.e. with the aid of a plurality of pixels, each having a grey scale value in a range from white to black.
The flowchart in
As soon as an image has been recorded in step 301, the process begins of determining how it overlaps the previous image both vertically and horizontally, step 302, i.e. in which relative position the best match is obtained between the contents of the images. For this purpose, every possible overlap position between the images is examined, at the pixel level, and an overlap measurement is determined as follows:
2) The grey scale sums for all the plus positions are added up.
3) The neighbours of each pixel position are examined. If an overlapping pixel position is not a neighbour of a plus position and consists of a pixel which is white and a pixel position which is not white, the grey scale value of the non-white pixel is subtracted, possibly multiplied by a constant, from the sum in point 2).
Our Swedish patent application No. 9704924-1 and the corresponding U.S. application No. 024,641 describe an alternative way of matching the images in order to find the best overlap position. The content of these applications is herewith incorporated by reference. As soon as the best overlap position between the current image and the previous image has been determined, the previous image is discarded, whereupon the current image becomes the previous image in relation to the next image recorded.
By determining the relative position of the two images a movement vector is obtained, which indicates how far and in which direction the input unit has been moved between the recording of the two images. Subsequently, a positioning signal, which includes this movement vector, is transmitted, step 303, by the radio transceiver 26 to the computer for which the input unit is operating as a mouse. The computer uses the movement vector for positioning the cursor on its screen. Subsequently, the flow returns to step 301. In order to increase the speed, the steps can partly be carried out in parallel, e.g. by starting the recording of the next image while the relative position of the current and the previous image is being determined.
In the mouse mode, the buttons 27′ can be used as clicking buttons for inputting instructions to the computer.
The Handwriting and Drawing Function
Next, suppose that the user wishes to input handwritten text to his computer. In this case, with the aid of the buttons 27, he sets the input unit to the handwriting function, whereupon the input unit starts to operate in the handwriting mode. When the user subsequently activates the input unit, the processor 20 commands the LED 6 to begin generating strobe pulses at the predetermined frequency. Subsequently, the user “writes” the text he wishes to input with the input unit directed at the selected surface, whereupon the sensor 8 records images with partially overlapping contents and stores them in the read/write memory 23. The tracer LED 28 successively indicates the path of movement on the surface by means of a luminous spot to give the user an idea of the movement. The text is input one character at a time. Between each character, the user indicates that an information unit has been input, for example by releasing the activating button 27 for a short time or by not moving the input unit for a short time.
Subsequently, the processor 20 determines whether the inputting of an information unit is complete or not, step 403. If not, the flow returns to step 401 and the next image is recorded. If the inputting is complete, the processor 20 reads the movement vectors determined for the information unit in question to an OCR (optical character recognition) module which identifies which character the movement vectors represent, step 404. Subsequently, the identified character is stored in character-coded format in the memory, step 405, and the input unit indicates that it is ready to input a new information undo step 406.
The inputted and identified character is preferably transferred to a computer in character-coded format by the intermediary of the radio transmitter 26 and is shown directly on the computer screen. If the input unit is used as a stand-alone unit, the character can be shown on the display 25 instead.
If, instead, the user indicates that the drawing function is to be used, only steps 400-403 are implemented.
The Scanner Function
Now, suppose that the user wishes to use the input unit for recording predefined text on an information carrier, e.g. a sheet of paper, a newspaper, or a book. In this case, he sets the input unit to the scanner function with the aid of the buttons 27, whereupon the input unit starts operating in the scanner mode.
Subsequently, he directs the input unit at the sheet of paper with the text in the location where he wishes to begin recording text, activates the input unit with the aid of the buttons 27, and passes it over the text which is to be recorded, following the text in the same manner as when one reads the text. The tracer LED 28 emits a light beam which makes it easier to follow the lines. When the user activates the input unit, the processor 20 commands the LED 6 to record images in the same way as described above with respect to the mouse function. When the user has passed the input unit over the selected text or has come to the end of a line or characters, he lifts the unit off the sheet of paper and releases the activating button, whereupon the processor 20 turns off the LED 6.
The flowchart in
The interpreted characters can be transferred to a computer or other receiver in character-coded format with the aid of the radio transceiver 26.
The above steps are thus carried out by the processor 20 with the aid of the associated units and suitable software. Such software can be created by the skilled person with the aid of the above instructions if it is not commercially available.
The Camera Function
Next, assume that the user wishes to record an image of an object located at a distance from the input unit. The “object” could, for example, be three-dimensional or it could be an image in a book. In this case, the user sets the input unit to the camera function with the aid of the buttons 27, whereupon the input unit begins to operate in the camera mode and the position of the lens system 7 changes to a position suitable for recording images located at a distance from the input unit. Subsequently, the user activates the input unit, whereupon the processor begins to read images from the sensor B. The read images can be shown either on the display 25 of the input unit or on a computer to which the input unit is connected and to which the images are transferred as they are recorded by the intermediary of the radio transceiver 26. When the user is satisfied with the appearance of the image, he presses one of the buttons 27, which then records an image of the object. When the image of the object has been recorded, the user can command the input unit to show the recorded image on the display 25 or to transfer the image to the computer by the intermediary of the radio transceiver 26.
The flowchart in
The above embodiment is described by way of example only. An input unit according to the invention need not comprise all of the functions listed above. It is possible to combine the mouse function with one or more of the scanner function, the camera function, the handwriting function, or other inputting functions.
In the embodiment described above, all processing of recorded information takes place in the input unit. This is not essential. All of the above measures except for the actual image-recording can be carried out with the aid of image-processing means in an external computer or in some other external unit to which the images are transferred.
In the embodiment described above, the recording of images is carried out by means of a single light-sensitive sensor. However, it is also possible to arrange a second light-sensitive sensor, for instance, in the other end of the casing. In this case, it is possible to use one end with the first sensor for the mouse function and the other end with the second sensor for one of the inputting functions.
It is not completely essential for the images to be recorded with overlapping contents in the mouse mode, the handwriting mode and the drawing mode. In these modes, a special substrate with position indications can be used instead. For example, the positions can be written as coordinates, which are read and interpreted for providing positioning signals for a cursor or movement indications enabling the reproduction of a drawn image or a drawn character. However, this has the drawback of requiring a special substrate as well as software for interpreting the position indications.
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|WO2012005809A1 *||May 12, 2011||Jan 12, 2012||Datalogic Scanning, Inc.||Adaptive data reader and method of operating|
|U.S. Classification||345/157, 345/164, 345/165, 345/179, 345/180, 345/163, 345/156|
|International Classification||G06F3/038, G06K9/22, G06F3/03|
|Cooperative Classification||G06F3/0317, G06F3/03545, G06F3/038, G06K9/222, G06F3/0346|
|European Classification||G06F3/0354N, G06F3/0346, G06F3/038, G06F3/03H3, G06K9/22H|
|Oct 19, 2000||AS||Assignment|
|Jul 21, 2004||AS||Assignment|
|Feb 25, 2005||AS||Assignment|
|Dec 12, 2008||FPAY||Fee payment|
Year of fee payment: 4
|Nov 14, 2012||FPAY||Fee payment|
Year of fee payment: 8